// // AsynchronousDataTransaction.swift // CoreStore // // Copyright © 2015 John Rommel Estropia // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all // copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE // SOFTWARE. // import Foundation import CoreData // MARK: - AsynchronousDataTransaction /** The `AsynchronousDataTransaction` provides an interface for `NSManagedObject` creates, updates, and deletes. A transaction object should typically be only used from within a transaction block initiated from `DataStack.beginAsynchronous(_:)`, or from `CoreStore.beginAsynchronous(_:)`. */ public final class AsynchronousDataTransaction: BaseDataTransaction { /** Saves the transaction changes. This method should not be used after the `commit()` method was already called once. - parameter completion: the block executed after the save completes. Success or failure is reported by the `SaveResult` argument of the block. */ public func commit(_ completion: @escaping (_ result: SaveResult) -> Void = { _ in }) { CoreStore.assert( self.transactionQueue.cs_isCurrentExecutionContext(), "Attempted to commit a \(cs_typeName(self)) outside its designated queue." ) CoreStore.assert( !self.isCommitted, "Attempted to commit a \(cs_typeName(self)) more than once." ) self.isCommitted = true let group = DispatchGroup() group.enter() self.context.saveAsynchronouslyWithCompletion { (result) -> Void in self.result = result completion(result) group.leave() } group.wait() } /** Begins a child transaction synchronously where NSManagedObject creates, updates, and deletes can be made. This method should not be used after the `commit()` method was already called once. - parameter closure: the block where creates, updates, and deletes can be made to the transaction. Transaction blocks are executed serially in a background queue, and all changes are made from a concurrent `NSManagedObjectContext`. - returns: a `SaveResult` value indicating success or failure, or `nil` if the transaction was not comitted synchronously */ @discardableResult public func beginSynchronous(_ closure: @escaping (_ transaction: SynchronousDataTransaction) -> Void) -> SaveResult? { CoreStore.assert( self.transactionQueue.cs_isCurrentExecutionContext(), "Attempted to begin a child transaction from a \(cs_typeName(self)) outside its designated queue." ) CoreStore.assert( !self.isCommitted, "Attempted to begin a child transaction from an already committed \(cs_typeName(self))." ) return SynchronousDataTransaction( mainContext: self.context, queue: self.childTransactionQueue, closure: closure).performAndWait() } // MARK: BaseDataTransaction /** Creates a new `NSManagedObject` with the specified entity type. - parameter into: the `Into` clause indicating the destination `NSManagedObject` entity type and the destination configuration - returns: a new `NSManagedObject` instance of the specified entity type. */ public override func create(_ into: Into) -> T { CoreStore.assert( !self.isCommitted, "Attempted to create an entity of type \(cs_typeName(into.entityClass)) from an already committed \(cs_typeName(self))." ) return super.create(into) } /** Returns an editable proxy of a specified `NSManagedObject`. This method should not be used after the `commit()` method was already called once. - parameter object: the `NSManagedObject` type to be edited - returns: an editable proxy for the specified `NSManagedObject`. */ public override func edit(_ object: T?) -> T? { CoreStore.assert( !self.isCommitted, "Attempted to update an entity of type \(cs_typeName(object)) from an already committed \(cs_typeName(self))." ) return super.edit(object) } /** Returns an editable proxy of the object with the specified `NSManagedObjectID`. This method should not be used after the `commit()` method was already called once. - parameter into: an `Into` clause specifying the entity type - parameter objectID: the `NSManagedObjectID` for the object to be edited - returns: an editable proxy for the specified `NSManagedObject`. */ public override func edit(_ into: Into, _ objectID: NSManagedObjectID) -> T? { CoreStore.assert( !self.isCommitted, "Attempted to update an entity of type \(cs_typeName(into.entityClass)) from an already committed \(cs_typeName(self))." ) return super.edit(into, objectID) } /** Deletes a specified `NSManagedObject`. This method should not be used after the `commit()` method was already called once. - parameter object: the `NSManagedObject` type to be deleted */ public override func delete(_ object: NSManagedObject?) { CoreStore.assert( !self.isCommitted, "Attempted to delete an entity of type \(cs_typeName(object)) from an already committed \(cs_typeName(self))." ) super.delete(object) } /** Deletes the specified `NSManagedObject`s. - parameter object1: the `NSManagedObject` type to be deleted - parameter object2: another `NSManagedObject` type to be deleted - parameter objects: other `NSManagedObject`s type to be deleted */ public override func delete(_ object1: NSManagedObject?, _ object2: NSManagedObject?, _ objects: NSManagedObject?...) { CoreStore.assert( !self.isCommitted, "Attempted to delete an entities from an already committed \(cs_typeName(self))." ) super.delete(([object1, object2] + objects).flatMap { $0 }) } /** Deletes the specified `NSManagedObject`s. - parameter objects: the `NSManagedObject`s type to be deleted */ public override func delete(_ objects: S) where S.Iterator.Element: NSManagedObject { CoreStore.assert( !self.isCommitted, "Attempted to delete an entities from an already committed \(cs_typeName(self))." ) super.delete(objects) } // MARK: Internal internal init(mainContext: NSManagedObjectContext, queue: DispatchQueue, closure: @escaping (_ transaction: AsynchronousDataTransaction) -> Void) { self.closure = closure super.init(mainContext: mainContext, queue: queue, supportsUndo: false, bypassesQueueing: false) } internal func perform() { self.transactionQueue.async { self.closure(self) if !self.isCommitted && self.hasChanges { CoreStore.log( .warning, message: "The closure for the \(cs_typeName(self)) completed without being committed. All changes made within the transaction were discarded." ) } } } internal func performAndWait() -> SaveResult? { self.transactionQueue.sync { self.closure(self) if !self.isCommitted && self.hasChanges { CoreStore.log( .warning, message: "The closure for the \(cs_typeName(self)) completed without being committed. All changes made within the transaction were discarded." ) } } return self.result } // MARK: Private private let closure: (_ transaction: AsynchronousDataTransaction) -> Void }